Dissolved and dissolvable iron concentrations and ligand characteristics in samples taken during POLARSTERN expedition ARK-XXII/2 to the Arctic Ocean
Cobertura |
MEDIAN LATITUDE: 83.807492 * MEDIAN LONGITUDE: 92.110399 * SOUTH-BOUND LATITUDE: 76.180500 * WEST-BOUND LONGITUDE: 33.950100 * NORTH-BOUND LATITUDE: 87.045200 * EAST-BOUND LONGITUDE: 177.544900 * DATE/TIME START: 2007-08-01T08:24:00 * DATE/TIME END: 2007-09-23T08:50:00 |
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Data(s) |
20/11/2011
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Resumo |
The speciation of iron was investigated in three shelf seas and three deep basins of the Arctic Ocean in 2007. The dissolved fraction (<0.2 µm) and a fraction < 1000 kDa were considered here. In addition, unfiltered samples were analyzed. Between 74 and 83% of dissolved iron was present in the fraction < 1000 kDa at all stations and depth, except at the chlorophyll maximum (42-64%). Distinct trends in iron concentrations and ligand characteristics were observed from the shelf seas toward the central deep basins, with a decrease of total dissolvable iron ([TDFe] > 3 nM on the shelves and [TDFe] < 2 nM in the Makarov Basin). A relative enrichment of particulate Fe toward the bottom was revealed at all stations, indicating Fe export toward the deep ocean. In deep waters, dissolved ligands became less saturated with Fe (increase of [Excess L]/[Fe]) from the Nansen Basin via the Amundsen Basin toward the Makarov Basin. This trend was explained by the reactivity of the ligands, higher (log alpha > 13.5) in the Nansen and Amundsen basins than in the Makarov Basin (log alpha <13) where the sources of Fe and ligands were limited. The ligands became nearly saturated with depth in the Amundsen and Nansen Basins, favoring Fe removal in the deep ocean, whereas in the deep Makarov Basin, they became unsaturated with depth. Still here scavenging occurred. Although scavenging of Fe was attenuated by the presence of unsaturated organic ligands, their low reactivity in combination with a lack of sources of Fe in the Makarov Basin might be the reason of a net export of Fe to the sediment. |
Formato |
application/zip, 3 datasets |
Identificador |
https://doi.pangaea.de/10.1594/PANGAEA.839199 doi:10.1594/PANGAEA.839199 |
Idioma(s) |
en |
Publicador |
PANGAEA |
Direitos |
CC-BY: Creative Commons Attribution 3.0 Unported Access constraints: unrestricted |
Fonte |
Supplement to: Thuróczy, Charles-Edouard; Gerringa, Loes JA; Klunder, Maarten B; Laan, Patrick; Le Guitton, M; de Baar, Hein JW (2011): Distinct trends in the speciation of iron between the shallow shelf seas and the deep basins of the Arctic Ocean. Journal of Geophysical Research, 116(C10), C10009, doi:10.1029/2010JC006835 |
Palavras-Chave | #-; [excess L]/[DFe]; [excess L]/[Fe]; [excess L]/[TDFe]; Area; Area/locality; DEPTH, water; Depth water; DFe; Event; excess L = [Lt]-[Fe], (Eq of nM Fe); Fe diss; Fe dissolvable; Fe dissolvable std dev; Fe diss std dev; FeL diss; Fe LogK´ diss; Fe LogK' diss; Fraction; in 1/mol; International Polar Year (2007-2008); IPY; Iron, dissolvable; Iron, dissolvable, standard deviation; Iron, dissolved; Iron, dissolved, conditional complex stability; Iron, dissolved, standard deviation; Iron-binding ligand, dissolved; Langmuir model, non-linear fit (Gerringa et al. 1995); Ligand [Lt ]; log alpha; alpha = alpha organic = [Excess L] · K'; of the titration measurement (slope of the straight part of the titration curve, in Amp.mol-1); pFe = -log {[Fe]/(alpha inorganic + alpha organic)} in M; Ratio; sensitivity; Sensitivity; Size fraction; St; Standard deviation; Std dev; total, TDFe |
Tipo |
Dataset |